An integrated and hybrid energy provider and storage device system for enhancing the energy efficiency and minimizing greenhouse gas emissions particularly for systems that utilize energy in a discrete and discontinuous manner, such as plug-in hybrid vehicles is provided. The system provides automat
An integrated and hybrid energy provider and storage device system for enhancing the energy efficiency and minimizing greenhouse gas emissions particularly for systems that utilize energy in a discrete and discontinuous manner, such as plug-in hybrid vehicles is provided. The system provides automated means to generate power, distribute the preferably locally generated power to a multiplex array of energy storage devices in a dynamic manner. The system, when utilizing dynamic algorithms, preferably meets the complex demands of often conflicting energy storage device requirements and real-time demand loads in-conjunction with dynamic switching between energy storage devices to enhance the performance and effectiveness that is beneficial to both the aggregate energy efficiency and the individual owner demands of each energy storage device.
대표청구항▼
1. An energy storage system operable to control production, transmission and storage of energy, comprising: an energy generator arranged on a mobile transportation device and configured to create generated energy and a waste heat byproduct;an on-board energy storage device arranged on the mobile tra
1. An energy storage system operable to control production, transmission and storage of energy, comprising: an energy generator arranged on a mobile transportation device and configured to create generated energy and a waste heat byproduct;an on-board energy storage device arranged on the mobile transportation device and operatively coupled to the energy generator for storing the generated energy;an external energy storage device arranged external to the mobile transportation device and communicably coupled to the energy generator for receiving a portion of the generated energy;a thermal energy storage device in thermal communication with the energy generator for storing the waste heat byproduct;a thermal hydraulic motor that circulates a thermal hydraulic fluid in thermal communication with the thermal energy storage device and having at least two distinct expansion stages for expanding the thermal hydraulic fluid to generate electrical energy for the on-board energy storage device or the external energy storage device; anda control system communicably coupled to the on-board energy storage device, the external energy storage device, and the thermal hydraulic motor, the control system being operable to vary a flow of the generated energy into the on-board energy storage device or the external energy storage device. 2. The energy storage system of claim 1, wherein the mobile transportation device further comprises a plug-in hybrid vehicle. 3. The energy storage system of claim 2, wherein the energy generator further comprises an internal combustion engine arranged on the plug-in hybrid vehicle. 4. The energy storage system of claim 2, wherein the thermal hydraulic motor is arranged at a residence. 5. The energy storage system of claim 4, further comprising a connector operatively associated with the plug-in hybrid vehicle and being operable to withdraw the thermal hydraulic fluid from the plug-in hybrid vehicle and direct thermal hydraulic fluid to the at least two expansion stages for expansion. 6. The energy storage system of claim 1, wherein the external energy storage device is arranged at a residence and the portion of the generated energy is used by the residence. 7. The energy storage system of claim 1, wherein the thermal energy storage device is arranged on the mobile transportation device. 8. The energy storage system of claim 7, wherein the thermal energy storage device further comprises a phase change material. 9. The energy storage system of claim 1, wherein the thermal energy storage device is arranged at a residence. 10. The energy storage system of claim 1, wherein the thermal hydraulic fluid further comprises super-critical carbon dioxide. 11. The energy storage system of claim 1, wherein the thermal hydraulic motor is arranged on the mobile transportation device. 12. The energy storage system of claim 1, wherein the control system determines an energy storage device charger profile to dynamically vary the flow of the generated energy into the on-board and external energy storage devices, the energy storage device charger profile being determined based on at least one of energy storage device energy requirements, energy storage device earliest start time, energy storage device latest finish time, energy storage device priority code, and energy storage device revenue code. 13. The energy storage system of claim 12, wherein the control system is further operatively coupled to the energy generator for controlling the energy generator and regulating a flow of the waste heat byproduct to the thermal energy storage device. 14. The energy storage system of claim 13, wherein the control system further determines a thermal energy storage device charger profile to dynamically vary the flow of the waste heat byproduct to the thermal energy storage device, the thermal energy storage device charger profile being based on at least one of byproduct waste heat energy requirements and real-time byproduct waste heat. 15. The energy storage system of claim 1, wherein the thermal energy storage device is further in thermal communication with the on-board energy storage device and the external energy storage device to recover generated waste heat. 16. The energy storage system of claim 1, wherein the thermal energy storage device is a first thermal energy storage device arranged on the mobile transportation device, the energy storage system further comprising a second thermal energy storage device arranged external to the mobile transportation device and in thermal communication with the energy generator for recovering a portion of the waste heat byproduct.
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